Tag Archives: energy and the military

“In the councils of government, we must guard against the acquisition of unwarranted influence, whether sought or unsought, by the military industrial complex. The potential for the disastrous rise of misplaced power exists and will persist.” – President Dwight D. Eisenhower, Farewell Address 1961

Over sixty years ago our president warned us of not letting a group, no matter how good their intentions, have undue influence on our government and people. In specific he was warning about the military industrial complex, or the different defense contractors as an industry (Michael Crichton has since warned about the politico-legal-media complex that he argues has replaced them). He was worried that a coordinated effort by any group would give them power to incant changes that would be harmful to the government and its people. But just as it has the potential for harm, it has the potential to help. And that’s what the military will do with their new energy policy.

This is the first time the United States military has created an energy policy that focuses on efficiency. Before now, it has been a policy of using as much energy as needed to get the job done regardless of its efficiency.

What has changed?

The military has come to a public realization that its’ current reliance on conventional energy and fuels are unsustainable and therefore they should take an active hand in solving the problem.

The military has always been conscious of their energy needs and the need for a more efficient and usable energy source. The Navy first used wind, but as technology advanced they went with propulsion systems that could provide more reliable and efficient energy. While wind is free, it does not always blow in a given area. This would lead to ships lost because they did not have wind. The Navy changed to coal and established a series of bases around the world to hold coal for them. Then they switched to oil and were able to have fewer bases to hold supplies. After that some ships converted to nuclear power. This allowed them to stay at sea for years at a time.

While the military has been moving towards a more efficient model, they have not had a well defined plan. And now they do. Currently the military uses about 1% of the fuel used in the Unites States, or about 5 billion gallons annually. As we all know the cost of fuel goes up. The military spent around $13.5 billion on fuel in 2010. The price has increased by 255% since 1997, and they expect it to continue to increase.

The Department of Defense’s new energy policy calls for 3 specific goals:

More fight, less fuel.

More option, less risk.

More capability, less cost.

These are good goals for good reasons. In 2010 there were over 1,100 attacks on military convoys carrying fuel to forward units. Less use of conventional fuel would mean fewer attacks, and would free up more units to go to the front. Today’s soldier on the ground carries over 10 pounds of batteries to operate his equipment. By 2013 it will be up to over 20 pounds. They will need more efficient equipment to keep the weight constant or even reduce it.

The Army is planning to use $1.4 million to implement a program to monitor their energy usage. It’s important to know what goes where and how much. It can be a little bit more challenging if it’s spread across 4 continents. They have another $5 million earmarked to help develop solar and wind generators to be used on the front lines. While solar powered battery rechargers have already been used in Afghanistan, there is need for more and better use of solar and wind power generation. $20 million is going to help reduce the weight of batteries and expand the capability of the dismounted soldier.

The Navy has plans as well. They have set aside $133 million for science and technology research. $16 million will be used toward making hybrid electric drives for ships. What is that, you may ask. It’s a drive that while still using fuel, can also run on a battery. If you have ever seen a Toyota Pruis, you have seen a hybrid electric drive. Currently, most ships use steam power to turn a turbine, which powers and moves the ship. With a hybrid drive, like a Prius, the Navy would save fuel. Ships would work even better with a smart meter and a smart electrical system. A smart meter would keep track of which systems are using electricity. If the entire system was smart it would optimize the electrical usage by giving just the systems that currently (that pun again) need electricity just the right amount. The Navy’s fleet is also moving to more bio fuels. Imagine fleets of ships and planes that run off of a bio fuel.

The Marine Corp (OORAH) has an ambitious plan as well. Their first step is to instill an energy efficient conscience. They also plan to reduce their use of fuel by 50% over the next 15 years (with a 25% decrease in 4 years). This is so the modern day Spartans will be more self-sufficient. Instead of having to shepherd supplies to the front, the Marines can focus on the front. They will be deploying more solar and wind arrays and even doing the small things such as using LED lights.

The Air Force plans on reducing their fuel needs by 10% in the next 4 years. They are also doing research into new and lighter materials to reduce the weight of planes. The Air Force Academy in Colorado Springs is ramping up its use of solar energy and trying to become 100% renewable.

So why does this matter to me?

While I enjoy a good military thriller, how can an energy efficient military help me? If the military uses less fuel, there is more on the market for me to buy. By reducing their costs, and therefore the amount of money my government spends, they have the potential (however small) of helping to lower the deficit.

But what will help the most is all the technology and procedures that they’ll develop. The military industrial complex is a large industry. Because of that they try to find multiple uses and markets for their products. They’ll repackage as much as they can for non-military use. Do I want a car that has a smart power system, so it can use less energy? Sure, I would even be OK if it did not have a combustion engine (as long as it still worked). Do I want smaller batteries that last longer? Of course, I would love for the charge in my iPod to last more than one chapter of a Patrick O’Brian novel.